FEATool - "Physics Simulation Made Easy" (Fully Integrated FEA, FEniCS, OpenFOAM, SU2 Solver GUI & Multi-Physics Simulation Platform)
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Updated
Jun 25, 2024 - MATLAB
The finite element method (FEM) is a numerical method for solving problems of engineering and mathematical physics. Typical problem areas of interest include structural analysis, heat transfer, fluid flow, mass transport, and electromagnetic potential.
FEATool - "Physics Simulation Made Easy" (Fully Integrated FEA, FEniCS, OpenFOAM, SU2 Solver GUI & Multi-Physics Simulation Platform)
The Geometry and Image-Based Bioengineering add-On for MATLAB
CALFEM - a finite element toolbox for MATLAB
A finite element code for structural analysis. Written in MATLAB. Uses Nastran input format.
Toolbox for particulate microstructure modelling
Electrostatic and Electromagnetic wave propagation simulations with FEM: EM field, TE & TM modes of a circular waveguide, scattering of a plane wave from a perfect electric conductor cylinder using PML.
Matlab library for Isogeometric Analysis
Geometrically-Nonlinear Shell Finite Element Analysis
StiffMa: Fast finite element STIFFness MAtrix generation in MATLAB by using GPU computing.
Fast nonlinear FEA tailored for topology optimization
3D Structural Topology Optimization in Matlab using Unstructured Meshes
Matlab library for Finite Element Analysis
MATLAB codes shown in the thesis.
Finite element thermo-elastic, buckling analysis of variable angle tow laminated plate
Hybrid CPU-GPU Finite Element Software for Structural Analysis in Mechanical Engineering
Export stiffness and mass matrices from NASTRAN
int_defects is a tool for automating the stress analysis of interacting defects in structures.
Numerically Based Analyses of Fluid–Structure Interaction: Matlab and C++/CUDA implementation of FEM models.
MATLAB library for mesh manipulation and analysis, suitable for computational geometry and finite element analysis.
Stiffened Plate Analysis and Design (SPAD)